====== Vitamin D ======

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Vitamin D refers to a group of fat-soluble secosteroids responsible for enhancing intestinal absorption of calcium, iron, magnesium, phosphate, and zinc. In humans, the most important compounds in this group are vitamin D3 (also known as cholecalciferol) and vitamin D2 (ergocalciferol). Cholecalciferol and ergocalciferol can be ingested from the diet and from supplements.

Very few foods contain vitamin D; synthesis of vitamin D (specifically cholecalciferol) in the skin is the major natural source of the vitamin. Dermal synthesis of vitamin D from cholesterol is dependent on sun exposure (specifically UVB radiation).
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Epidemiological studies show a strong association between decreased [[vitamin D]] levels and an increase in [[aneurysm rupture]]. However, the [[causality]] and mechanism remain largely unknown. 
Kimura et al. tested whether vitamin D deficiency promotes aneurysm rupture and examined the underlying mechanism for the protective role of vitamin D against the development of aneurysm rupture utilizing a [[mouse model]] of intracranial aneurysm. Mice consuming a vitamin D-deficient [[diet]] had a higher rupture rate than mice with a regular diet. Vitamin D deficiency increased proinflammatory [[cytokine]]s in the cerebral arteries. Concurrently, vitamin D receptor knockout mice had a higher rupture rate than the corresponding wild-type littermates. The vitamin D receptors on endothelial and vascular smooth muscle cells, but not on hematopoietic cells, mediated the effect of aneurysm rupture. The results establish that vitamin D protects against the development of aneurysmal rupture through the vitamin D receptors on vascular endothelial and smooth muscle cells. Vitamin D supplementation may be a viable pharmacologic therapy for preventing aneurysm rupture
((Kimura T, Rahmani R, Miyamoto T, Kamio Y, Kudo D, Sato H, Ikedo T, Baranoski JF, Uchikawa H, Ai J, Lawton MT, Hashimoto T. Vitamin D deficiency promotes intracranial aneurysm rupture. J Cereb Blood Flow Metab. 2024 Jan 19:271678X241226750. doi: 10.1177/0271678X241226750. Epub ahead of print. PMID: 38241458.))
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The evidence linking [[vitamin D]] (VitD) levels and [[Spontaneous Intracerebral Hemorrhage Risk Factors]] remains inconclusive. Szejko et al. tested the hypothesis that lower genetically determined VitD levels are associated with a higher risk of ICH. They conducted a 2-sample [[Mendelian Randomization]] (MR) study using publicly available summary statistics from published [[genome-wide association study]] of VitD levels (417 580 study participants) and ICH (1545 ICH cases and 1481 matched controls). They used the [[inverse variance-weighted average method]] to generate causal estimates and the MR [[Pleiotropy]] Residual Sum and Outlier and MR-Egger approaches to assess for horizontal pleiotropy. To account for known differences in their underlying mechanism, we implemented stratified analysis based on the location of the hemorrhage within the brain (lobar or nonlobar). Our primary analysis indicated that each SD decrease in genetically instrumented VitD levels was associated with a 60% increased risk of ICH (odds ratio [OR], 1.60; [95% CI, 1.05-2.43]; P=0.029). They found no evidence of horizontal pleiotropy (MR-Egger intercept and MR Pleiotropy Residual Sum and Outlier global test with P>0.05). Stratified analyses indicated that the association was stronger for nonlobar ICH (OR, 1.87; [95% CI, 1.18-2.97]; P=0.007) compared with lobar ICH (OR, 1.43; [95% CI, 0.86-2.38]; P=0.17). 
Lower levels of genetically proxied VitD levels are associated with higher ICH risk. These results provide evidence for a causal role of VitD metabolism in ICH
((Szejko N, Acosta JN, Both CP, Leasure A, Matouk C, Sansing L, Gill TM, Hongyu Z, Sheth K, Falcone GJ. Genetically-Proxied Levels of Vitamin D and Risk of Intracerebral Hemorrhage. J Am Heart Assoc. 2022 Jun 22:e024141. doi: 10.1161/JAHA.121.024141. Epub ahead of print. PMID: 35730641.)).
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The [[hippocampus]] is susceptible to [[damage]] in [[patient]]s with [[epilepsy]] and in [[animal]]s with [[seizure]]s caused by excitotoxic agents. The effect of vitamin D on [[hippocampal apoptosis]] related with [[seizure]]s has not been reported. However, epileptic patients have an increased risk of [[hypovitaminosis D]] which is most likely due to the effects of [[antiepileptic drug]]s. Therefore, in a study of Şahin et al., from [[Trabzon]], it was aimed to evaluate the effects of [[vitamin D]] on hippocampal apoptosis related with [[seizure]]s by using [[pentylenetetrazol]] (PTZ) and [[kainic acid]] (KA) in [[rat]]s.

Male [[Sprague Dawley rat]]s, aged 5.5 weeks, were randomly divided into six groups: control, vitamin D, PTZ, KA, PTZ + vitamin D and KA + vitamin D groups. The groups that received vitamin D were given 500 IU/kg of vitamin D daily for two weeks in addition to a standard diet. At the end of this period, PTZ and KA were applied to trigger seizures in the rats in the seizure groups. 24 h after the administration of PTZ and KA, the rats were decapitated. In the [[hippocampal region]], apoptosis was assessed by TUNEL and brain-derived neurotrophic factor (BDNF), Bax, caspase-3 and c-fos activation were evaluated by immunohistochemical method.

BDNF level increased while c-fos, Bax and caspase-3 levels decreased (p < 0.0001, in all) in the hippocampal neurons of the groups that were pre-treated with vitamin D before the administration of PTZ and KA, in comparison with the PTZ and KA groups. Vitamin D significantly decreased the number of apoptotic cells in these rats in comparison with the PTZ and KA groups (p < 0.0001).

This study indicates that vitamin D has [[neuroprotective]] effects on hippocampal apoptosis induced by PTZ and KA in rats. With this study it is suggested that keeping vitamin D levels within normal limits may be beneficial for patients with epilepsy, especially children
((Şahin S, Gürgen SG, Yazar U, İnce İ, Kamaşak T, Acar Arslan E, Diler Durgut B,
Dilber B, Cansu A. Vitamin D protects against hippocampal apoptosis related with 
seizures induced by kainic acid and pentylenetetrazol in rats. Epilepsy Res. 2018
Dec 15;149:107-116. doi: 10.1016/j.eplepsyres.2018.12.005. [Epub ahead of print] 
PubMed PMID: 30584976.
)).
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A significant association appears to exist between lack of VitD supplementation and [[venous thromboembolism]] (VTE) occurrence in persons with acute  spinal cord injury (SCI) and low VitD (LVitD)  levels
((Ehsanian R, Timmerman MA, Wright JM, McKenna S, Dirlikov B, Crew J. Venous
Thromboembolism is Associated with Lack of Vitamin D Supplementation in Patients 
with Spinal Cord Injury and Low Vitamin D Levels. PM R. 2018 Oct 6. pii:
S1934-1482(18)30979-1. doi: 10.1016/j.pmrj.2018.09.038. [Epub ahead of print]
PubMed PMID: 30300766.
)).
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Few studies have examined the relationship between [[diet]] and [[Modic changes]]. Johansen et al. studied the relationship between [[vitamin D]] and MC and surprisingly found that MC were more common in individuals with normal levels of vitamin D than in those with low levels. However, the mechanisms underlying the development of MC remain unclear at present. Findings suggest that the link between vitamin D and MC is perhaps related to [[inflammation]], though further confirmatory studies are needed
((Johansen JV, Manniche C, Kjaer P.: Vitamin D levels appear to be normal in Danish patients attending secondary care for low back pain and a weak positive correlation between serum level Vitamin D and Modic changes was demonstrated: a cross-sectional cohort study of consecutive patients with non-specific low back pain. BMC Musculoskelet Disord, 2013, 14: 78.)).

Individuals with MC are expected to have low levels of vitamin D because of an increased susceptibility to inflammation and/or because microfractures occur in the vertebrae because of increased levels of [[parathyroid hormone]]
((D’Ambrosio D, Cippitelli M, Cocciolo MG, et al. : Inhibition of IL-12 production by 1,25-dihydroxyvitamin D3. Involvement of NF-kappaB downregulation in transcriptional repression of the p40 gene. J Clin Invest, 1998, 101: 252–262.))
((Mosekilde L.: Primary hyperparathyroidism and the skeleton. Clin Endocrinol (Oxf), 2008, 69: 1–19.)).